Figure 1
Introduction When the two crystalline substances Ba(OH)2 8HO and NH4SCN are thoroughly mixed in a flask, a heat absorbing or endothermic reaction develops: (1)
Ba(OH)2 ∙48H2 O + 2NH4 SCN ⟶ Ba(SCN)2 + 2NH3 + 10H2 O
The gaseous substance Ammonia (NH3), formed in this reaction, can be easily detected due to its pungent smell. If the flask, which feels very cold to the touch, is set on a board covered with a thin layer of water, the flask and board freeze together. In this experiment we follow temperature changes that occur while mixing crystalline barium hydroxide octahydrate and ammonium isothiocyanate and experience the reaction flask and the board freezing together. The heat of reaction can be calculated from the following equation: (1) q = Ct Where:
Q = The quantity of heat released or absorbed.
m = The mass of the substance. C = The heat capacity of the substance. T =The change in temperature.
Equipment einstein™Tablet with MiLAB or Android /IOS tablet with MiLAB and einstein™LabMate Temperature sensor (-40 °C to 140 °C) 2 g of Ba(OH)2 ·8H2O 4 g of NH4SCN Wooden or a plastic board, approximately 5 cm x 5 cm 10 ml glass flask 10 cm glass rod Safety goggles
Equipment Setup Procedure 1.
Launch MiLAB™ (
).
2. 3. 4.
Connect the Temperature sensor to one of the ports on the einstein™Tablet or einstein™LabMate. Make sure that only the Temperature sensor is selected. Assemble the equipment as illustrated in Figure 1.
Data Logger Setup Program the sensors to log data according to the following setup: Temperature (-40°C to 140°C) Rate:
Every 1 sec
Duration:
200 sec
Experimental Procedure Always wear safety goggles. 1. Pour water on the board until it is covered with a thin layer of water. 2. Weigh 2 g of Ba(OH)2 8H2O in a 100 ml glass flask. 3. Insert the Temperature sensor into the barium hydroxide crystals in the flask. 4. Weigh 4 g of ammonium Isothiocyanate. 5.
Select Run (
6. 7. 8.
Wait until readings from the Temperature sensor are stable. Add the weighed NH4SCN to the flask containing Ba(OH)2 8H2O. Place the flask on the water covered board, as demonstrated in Figure 1a.
) to begin recording data.
Figure 1a 1. 2.
Thoroughly mix the substances in the flask with a glass rod. Follow the temperature changes in the flask, until no further changes in temperature are observed.
3.
When the temperature stabilizes, select Stop (
4.
Save your data by selecting Save (
5.
Try to remove the flask from the board.
) to stop collecting data.
).
Data Analysis 1. 2.
On the graph, select the initial temperature, and then select the final temperature. How did the temperature change during this chemical reaction? What is the difference between the two values? How long did it take for the reaction to reach the final temperature? Calculate the heat of reaction.
Note: Water specific heat capacity at 25 째C is 4.18 (J/g*째C). 3.
Describe what happened when you tried to pick up the flask.
Temperature (0C)
An example of the Temperature vs. Time graph obtained in this experiment is shown in the graph below.
Figure 2
Questions 1. 2. 3.
What changes in the temperature in the flask did you observe? Explain your results. What kind of chemical reaction occurred in the flask? Explain what happened when you tried to lift up the flask.
Further Suggestions 1. 2. 3.
Change the relative amounts of Ba(OH)2 ď‚´ 8H2O and NH4SCN and follow the temperature change in each case. Perform an additional endothermic reaction: Dissolution of KNO3 in water (25 g in 50 ml water). Follow the rate of ammonium release in the reaction, using a Pressure sensor. In this way the reaction rate can be measured.